Meat exhibition rack with antibacterial lamp

ABSTRACT

A meat exhibition rack with an antibacterial lamp has an exhibition rack body with a reception space and the antibacterial lamp disposed in interior of the exhibition rack body. The antibacterial lamp has: a LED base having a plasma LED module comprising plasma LED lamps; a cover, coupled to the LED base, so as to form a tube; an optical shielding film, disposed at an inner surface of the cover which faces the LED base; a diffusion module, disposed at an inner surface of the optical shielding film which faces the LED base; and fixing bases, disposed at two ends of the LED base, coupled to two ends of the diffusion module, the optical shielding film and the cover, so as form a close space to receive the plasma LED module. The antibacterial lamp keeps the exhibited meats in the meat exhibition rack fresh and achieves the antibacterial effect.

TECHNICAL FIELD

The present disclosure relates to a meat exhibition rack with an antibacterial lamp, and in particular to, an exhibition rack having an antibacterial lamp therein, which is used to generate negative ions, so as to inhibit bacteria and keep fresh at the same time.

RELATED ART

Generally speaking, when the meat is exhibited on the market, the exhibited meat is usually disposed in a refrigerator with a refrigerating function, and a cold air recycling function of the refrigerator is used to reduce the temperature and maintain it at a low temperature to achieve refrigeration. To make the exhibited meat look more delicious, light is illuminated to the exhibited meat, such that the exhibited meat looks more delicious and fresh. However, when using the cold air cycling function, the cold air passes through the exhibited meat, and it is easy to dry the meat surface, which will cause the exhibited meat to change color. When using light to illuminate exhibited meat, if the common tungsten bulbs and fluorescent bulbs are used, the temperature will rise instantly and will remain high. It is easy to cause the rapid loss of hemoglobin in the exhibited meat, which causes a change in color, and it will also cause the quality of the exhibited meat to deteriorate, and even produce bacteria, which will easily make the exhibited meat become stale. Another manner for illuminating light is to use a LED (light-emitting diode, hereinafter “LED”) lamp, although the temperature will not be as high as that of the tungsten light bulbs and fluorescent bulbs, it cannot produce negative ions that can keep the exhibited meat fresh. In such a space, with the blow of cold air and the lighting of high-temperature light bulbs, the temperature of the refrigerator cannot be averaged, nor can it be maintained within a certain freshness temperature. Therefore, the refrigeration temperature can only be lowered to reduce the average temperature. In addition to wasting electricity, it also easily causes problems with meat freshness.

Therefore, how to provide a more convenient and simple method to keep the meat fresh and prevent discoloration, without consuming a large amount of electrical energy, is still a problem and issue that need to be overcome and solved.

SUMMARY

The main objective of the present disclosure to solve the problem that conventional implementation schemes cannot efficiently keep the meat fresh and maintain the original color of meat.

To achieve the above objective, the present disclosure provides a meat exhibition rack with an antibacterial lamp, which can utilize a plasma LED lamp with a lower temperature to negative ions and light illumination with a high CRI (color rendering index, herein “CRI”) being larger than 90, such that the original color of the meat in the exhibition rack can be maintained.

A meat exhibition rack with an antibacterial lamp is provided by the present disclosure, which at least comprises: a base, disposed at bottom of an exhibition rack body; an opening, disposed on the base, being one side of the exhibition rack body, having at least one sliding door; a first window, disposed on the base, extending upward opposite to the base; a second window and a third window, disposed on the base and opposite to each other, wherein left sides and right sides of the second window and the third window are respectively connected to a side of the first window and a side of the opening; a top part, disposed opposite to the base, connected to top sides of the opening, the first window, the second window and the third window, so as to form a reception space; and the antibacterial lamp, disposed on a side of the top part which faces the reception space. The antibacterial lamp comprises: a LED base, having a plasma LED module comprising plasma LED lamps; a cover, coupled to the LED base, so as to form a tube; an optical shielding film, disposed at an inner surface of the cover which faces the LED base; a diffusion module, disposed at an inner surface of the optical shielding film which faces the LED base; fixing bases, disposed at two ends of the LED base, coupled to two ends of the diffusion module, the optical shielding film and the cover, so as form a close space to receive the plasma LED module; and a power module, electrically connected to the plasma LED module.

In an embodiment of the present disclosure, the reception space has shelves, and the shelf is disposed parallel to the base, or slightly tilted and downward to face the first window.

In an embodiment of the present disclosure, the antibacterial lamp is disposed under the shelf.

In an embodiment of the present disclosure, the sliding door is a glass sliding door or a plastic sliding door

In an embodiment of the present disclosure, the first window, the second window and the third window are glasses windows or plastic windows.

In an embodiment of the present disclosure, the fixing bases are coupled to the top part or the shelf via fixing parts.

In an embodiment of the present disclosure, the fixing part is disposed on the top part or the shelf via a screw or a latch part.

BRIEF DESCRIPTIONS OF DRAWINGS

FIG. 1 is a schematic diagram of an exhibition rack body and an antibacterial lamp provided by the present disclosure.

FIG. 2 is a schematic diagram of a meat exhibition rack with an antibacterial lamp provided by the present disclosure.

FIG. 3 is an explosive diagram of an antibacterial lamp provided by the present disclosure.

FIG. 4 is a perspective diagram of an antibacterial lamp provided by the present disclosure.

FIG. 5 is an enlarged sectional view of a part of an antibacterial lamp provided by the present disclosure.

FIG. 6 is another sectional view of an antibacterial lamp provided by the present disclosure.

FIG. 7 is another schematic diagram of a meat exhibition rack with an antibacterial lamp provided by the present disclosure.

FIG. 8 is a schematic diagram of fixing an antibacterial lamp to a meat exhibition rack via a screw.

FIG. 9 is a schematic diagram of fixing an antibacterial lamp to a meat exhibition rack via a latch.

FIG. 10 is a schematic diagram of a practice of a meat exhibition rack with an antibacterial lamp provided by the present disclosure.

DETAILS OF EXEMPLARY EMBODIMENTS

In order to facilitate the examiner to understand the technical features, the contents and the advantages of the present disclosure, as well as the efficacy that can be reached by the present disclosure, the present disclosure will now be described in detail with the drawings and the form of expression of the embodiments. The drawings used are only for illustration and support of the specification, and hence are not necessarily accurate in scale and precise in configuration after implementation of the present disclosure. Therefore, it should not be interpreted based upon the scale and the configuration on the drawings to confine the scope of the rights claimed on the practical implementation of the present disclosure.

Firstly, refer to FIG. 1 through FIG. 6, FIG. 1 is a schematic diagram of an exhibition rack body and an antibacterial lamp provided by the present disclosure, FIG. 2 is a schematic diagram of a meat exhibition rack with an antibacterial lamp provided by the present disclosure, FIG. 3 is an explosive diagram of an antibacterial lamp provided by the present disclosure, FIG. 4 is a perspective diagram of an antibacterial lamp provided by the present disclosure, FIG. 5 is an enlarged sectional view of a part of an antibacterial lamp provided by the present disclosure, and FIG. 6 is another sectional view of an antibacterial lamp provided by the present disclosure. As shown in drawings, the meat exhibition rack with the antibacterial lamp is combined by an exhibition rack body (10) and the antibacterial lamp (20), wherein the antibacterial lamp (20) is disposed in interior of the exhibition rack body (10) via fixing bases (26).

The exhibition rack body (10) at least comprises: a base (11), disposed at bottom of the exhibition rack body (10); an opening (12), disposed on the base (11), being one side of the exhibition rack body (10), having at least one sliding door (121), wherein the sliding door (121) is a glass sliding door or a plastic sliding door; a first window (13), disposed on the base (11), extending upward opposite to the base (11); a second window (14) and a third window (15), disposed on the base (11) and opposite to each other, wherein left sides and right sides of the second window (14) and the third window (15) are respectively connected to a side of the first window (13) and a side of the opening (12), and the first window (13), the second window (14) and the third window (15) can be a glass window or a plastic window; a top part (16), disposed opposite to the base (11), connected to top sides of the opening (12), the first window (13), the second window (14) and the third window (15), so as to form a reception space (18); and the antibacterial lamp (20), disposed on a side of the top part (16) which faces the reception space (18). The antibacterial lamp (20) comprises: a LED base (21), having a plasma LED module (22) comprising plasma LED lamps (221); a cover (23), coupled to the LED base (21), so as to form a tube; an optical shielding film (24), disposed at an inner surface of the cover (23) which faces the LED base (21); a diffusion module (25), disposed at an inner surface of the optical shielding film (24) which faces the LED base (21); the fixing bases (26), coupled to two ends of the diffusion module (25), the optical shielding film (24) and the cover (23), so as form a close space to receive the plasma LED module (22); and a power module (27), electrically connected to the plasma LED module (22), extending outside the antibacterial lamp (20) via one of the fixing bases (26); and in the embodiment, the power module (27) can be a plug, which can be electrically connected to an utility power to transmit the power to the plasma LED module (22) to generate a light source.

It can be known that, after the plasma LED module (22) operates to generate the light source, the diffusion module (25) diffuses light beams of the light source to make the light beams irradiate uniformly. The side of the diffusion module (25) which faces the plasma LED module (22) has a matte structure, such that when the plasma LED module (22) emit the light source, the matte structure makes the light beams more soft. Further, after the plasma LED module (22) performs the plasma discharging, oxygen molecules and water molecules in the air will cause negative ions (40) (see FIG. 10) due to the ionization reaction, which can destroy the surface proteins of viruses and bacteria in the air, thereby achieving the effect of purifying the air and inhibiting bacteria.

Furthermore, when the plasma LED module (22) is in operation, free radicals are generated due to the collision of positive and negative electrons. After the free radicals can penetrate the diffusion module (25) and the optical shielding film (24), the free radicals are combined with suspended particles in the air to achieve the effect of removing dust from the air, so as to prevent dust and bacteria from attaching to the meat (30).

Refer to FIG. 7, FIG. 7 is another schematic diagram of a meat exhibition rack with an antibacterial lamp provided by the present disclosure. The reception space (18) comprises shelves (17), and the shelves (17) are disposed parallel to the base (11), or slightly tilted and downward to face the first window (13). Meanwhile, the antibacterial lamp (20) can be disposed under the shelves (17), or disposed at the connection part of the first window (13) and second window (14), the connection part of the first window (13) and the third window (15), or any part which the antibacterial lamp (20) can illuminate the shelves (17). The present disclosure does not limit the location of the antibacterial lamp (20).

Refer to FIG. 8 and FIG. 9, FIG. 8 is a schematic diagram of fixing an antibacterial lamp to a meat exhibition rack via a screw, and FIG. 9 is a schematic diagram of fixing an antibacterial lamp to a meat exhibition rack via a latch. As shown in the drawings, the antibacterial lamp (20) is formed by coupling ends of the cover (23) and the LED base (21) via the fixing bases (26), the LED base (21) has the plasma LED module (22), the plasma LED module (22) is formed by combining the plasma LED lamps (221), the optical shielding film (24) is disposed on the inner surface of the cover (23) which faces the LED base (21), the diffusion module (25) is disposed on the inner surface of the optical shielding film (24) which faces the LED base (21), and the fixing parts (261) can be used to fix the fixing bases (26) to the top part (16) or the shelve (17). The fixing part (261) can be a screw or a latch part (262), which can be fixed to the top part (16) or the shelve (17).

It can be known that, the arrangement of the antibacterial lamp (20) on the exhibition rack body (10) determines the fixing manner of the fixing parts (261) and the exhibition rack body (10). For example, the fixing part (261) can be the screw to fix the fixing base (26) to the top part (16) or the shelve (17), and when the top part (16) or the shelve (17) has a slot, the fixing part (261) can be the latch part (262) for fixing the fixing base (26) to slot.

Refer to FIG. 10, and FIG. 10 is a schematic diagram of a practice of a meat exhibition rack with an antibacterial lamp provided by the present disclosure. As shown in FIG. 10, the antibacterial lamp (20) is coupled to the top part (16) via the fixing parts (261). When the meats (30) are disposed on the shelves (17), the plasma LED lamp (221) of the antibacterial lamp (20) is operates at the lower temperature to generate the negative ions (40) and free radicals, so as to make sure the freshness and antibacterial of the meats (30).

Accordingly, compared to the related art and the current product, the meat exhibition rack with antibacterial lamp of the present disclosure has the following advantages: (1) the meat exhibition rack with the antibacterial lamp utilizes the low temperature characteristics, such that the temperature in the meat exhibition rack cannot be changed easily, and the meat exhibition rack is usually in a low temperature state; (2) the meat exhibition rack with the antibacterial lamp utilizes the high color rendering light, and by using color rendering index (CRI) greater than 90, the meat restores its original color; and (3) the meat exhibition rack with the antibacterial lamp can destroy the virus and bacterial surface proteins in the air through the ionization reaction generated when the plasma LED module is operating, thereby achieving the antibacterial effect.

Specifically, in the present disclosure, a plasma technology and a lamp are combined to form the plasma LED lamp, the low-temperature characteristics of the plasma LED lamp is utilized, and the plasma LED lamp is disposed in the meat exhibition rack. When the meat is illuminated, bacteria are suppressed and meat color can be restored. Without much electricity and a space for receiving the apparatus, the meat freshness and original color can be maintained.

In summary, the meat exhibition rack with the antibacterial lamp of the present disclosure can indeed achieve the expected effect through the embodiments disclosed above, and the energy storage system has not been disclosed before the present disclosure is filed. The present disclosure has been fully complied with the requirements and regulations of the patent law, thus the present disclosure is filed accordance with the patent law, and allowance of claims of the present disclosure is respectfully requested.

The above-mentioned descriptions represent merely the exemplary embodiment of the present disclosure, without any intention to limit the scope of the present disclosure thereto. Various equivalent changes, alternations or modifications based on the claims of present disclosure are all consequently viewed as being embraced by the scope of the present disclosure. 

1. A meat exhibition rack with an antibacterial lamp, at least comprising: a base, disposed at bottom of an exhibition rack body; an opening, disposed on the base, being one side of the exhibition rack body, having at least one sliding door; a first window, disposed on the base, extending upward opposite to the base; a second window and a third window, disposed on the base and opposite to each other, wherein left sides and right sides of the second window and the third window are respectively connected to a side of the first window and a side of the opening; a top part, disposed opposite to the base, connected to top sides of the opening, the first window, the second window and the third window, so as to form a reception space; and the antibacterial lamp, disposed on a side of the top part which faces the reception space, comprising: a LED base, having a plasma LED module comprising plasma LED lamps; a cover, coupled to the LED base, so as to form a tube; an optical shielding film, disposed at an inner surface of the cover which faces the LED base; a diffusion module, disposed at an inner surface of the optical shielding film which faces the LED base; fixing bases, disposed at two ends of the LED base, coupled to two ends of the diffusion module, the optical shielding film and the cover, so as form a close space to receive the plasma LED module; and a power module, electrically connected to the plasma LED module.
 2. The meat exhibition rack with the antibacterial lamp of claim 1, wherein the reception space has shelves, and the shelf is disposed parallel to the base, or slightly tilted and downward to face the first window.
 3. The meat exhibition rack with the antibacterial lamp of claim 2, wherein the antibacterial lamp is disposed under the shelf.
 4. The meat exhibition rack with the antibacterial lamp of claim 3, wherein the sliding door is a glass sliding door or a plastic sliding door.
 5. The meat exhibition rack with the antibacterial lamp of claim 4, wherein the first window, the second window and the third window are glasses windows or plastic windows.
 6. The meat exhibition rack with the antibacterial lamp of claim 5, wherein the fixing bases are coupled to the top part or the shelf via fixing parts.
 7. The meat exhibition rack with the antibacterial lamp of claim 6, wherein the fixing part is disposed on the top part or the shelf via a screw or a latch part. 